Content feed delivery system and method

ABSTRACT

A method of providing a content feed. The method includes monitoring a plurality of user content streams of a plurality of users on a plurality of computing devices, the plurality of user content streams including a plurality of content instances accessible via a network. A plurality of archetypes are generated based on the plurality of user content streams. A selection of a particular archetype of the plurality of archetypes from a particular user is received on a particular computing device. A particular content stream is determined based on the particular archetype, and the particular content stream is delivered to the particular user via the particular computing device.

CROSS REFERENCE TO RELATED APPLICATION(S)

This application is a continuation of U.S. patent application Ser. No.17/111,086, filed Dec. 3, 2020, which is incorporated by reference as iffully set forth.

FIELD OF INVENTION

The invention relates generally to data provided over a network, andmore particularly to content feeds provided over a network.

BACKGROUND

Popularity of successful internet applications like YouTube™ andTwitter™ stems in part from the fact that they deliver valuablepersonalized content in the form of a content feed to their users. Themastering of content personalization is double edged in its impactsthough, because users may be locked in isolated bubbles of their worldview. As a result, vital exposure to challenging world views of otheruser groups may be reduced. The issue of problems caused by the limitsof human subjectivity is not new and is very well known in journalism.In order to resolve this issue, journalism ethics and standards wereestablished which bound journalists to report about stories in a waywhich respects different opinions so that the audience is faced with afull picture containing the challenging views. However, the contentfeeds of successful internet applications like YouTube™ andTwitter™—which greatly influence the world's perception of contemporarypeople—are generated in automated way and lack the touch of humanjournalists who obey a code of objectivity.

SUMMARY

This Summary introduces simplified concepts that are further describedbelow in the Detailed Description of Illustrative Embodiments. ThisSummary is not intended to identify key features or essential featuresof the claimed subject matter and is not intended to be used to limitthe scope of the claimed subject matter.

A method of providing a content feed is provided. The method includesmonitoring a plurality of user content streams of a plurality of userson a plurality of computing devices, the plurality of user contentstreams including a plurality of content instances accessible via anetwork. A plurality of archetypes are generated based on the pluralityof user content streams. A selection of a particular archetype of theplurality of archetypes from a particular user is received on aparticular computing device. A particular content stream is determinedbased on the particular archetype, and the particular content stream isdelivered to the particular user via the particular computing device.

A method is also provided including receiving a plurality of contentinstances from a plurality of computing devices via a network andgenerating a plurality of archetypes based on the plurality of contentinstances. An application is enabled on a particular computing device. Aselection of a particular archetype of the plurality of archetypes froma particular user is received on the particular computing device via theapplication. A particular content instance is determined based on theparticular archetype, and the particular content instance is deliveredto the particular user via the particular computing device.

A system for providing content feeds is provided. The system includes aplurality of computing devices each including at least a first hardwareprocessor and at least a first non-transitory computer-readable storagemedium coupled to the at least the first hardware processor and storingfirst programming instructions for execution by the at least the firsthardware processor, wherein the first programming instructions, whenexecuted, cause the plurality of computing devices to perform operationsincluding monitoring a plurality of user content streams, the pluralityof user content streams including a plurality of content instancesaccessible via a network. The system further includes a server includingat least a second hardware processor and at least a secondnon-transitory computer-readable storage medium coupled to the at leastthe second hardware processor and storing second programminginstructions for execution by the at least the second hardwareprocessor, wherein the second programming instructions, when executed,cause the server to perform operations including receiving the pluralityof user content streams from the plurality of computing devices, andgenerating a plurality of archetypes based on the plurality of usercontent streams. The system further includes a particular computingdevice including at least a third hardware processor and at least athird non-transitory computer-readable storage medium coupled to the atleast the third hardware processor and storing third programminginstructions for execution by the at least the third hardware processor,wherein the third programming instructions, when executed, cause theparticular computing device to perform operations including receivingthe plurality of archetypes from the server, receiving a selection of aparticular archetype of the plurality of archetypes from a particularuser, determining a particular content stream based on the particulararchetype, and delivering the particular content stream to theparticular user.

BRIEF DESCRIPTION OF THE DRAWING(S)

A more detailed understanding may be had from the following description,given by way of example with the accompanying drawings. The Figures inthe drawings and the detailed description are examples. The Figures andthe detailed description are not to be considered limiting and otherexamples are possible. Like reference numerals in the Figures indicatelike elements wherein:

FIG. 1 shows a system for providing content feeds to a user.

FIG. 2A is a diagram showing an exemplary pipeline of a content feedmimicking process.

FIG. 2B is a diagram showing a process flow of an exemplary applicationof a content feed mimicking process in accordance with the pipeline ofFIG. 2A.

FIGS. 3A-3D show example interactive displays enabled by a content feedapplication to allow a user to indicate preferences and receive content.

FIGS. 4A, 4B, and 5 are diagrams showing methods of providing content.

FIG. 6 shows a computer system for performing described methodsaccording to the illustrative embodiments.

DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENT(S)

Described herein are systems and methods for restoring objectivity inthe realm of content-rendering platforms including personalized internetapplications and websites. Referring to FIG. 1 , a system 10 forproviding content feeds to a user is provided. The system 10 is providedin a communications network 8 including one or more wired or wirelessnetworks or a combination thereof, for example including a local areanetwork (LAN), a wide area network (WAN), the internet, mobile telephonenetworks, and wireless data networks such as Wi-Fi™ and 3G/4G/5Gcellular networks. Operating system 60 (hereinafter “OS 60”) is executedon computing devices 12. The system 10 enables monitoring a plurality ofuser content streams of a plurality of users on a plurality of computingdevices 12, the plurality of user content streams including a pluralityof content instances accessible via a network. Content instances includemedia for example videos, social networking posts, and news articles, orportions thereof for example headings or summaries of videos, socialnetworking posts, and news articles, or links thereto for example linksto videos, social networking posts, and news articles.

The system 10 further enables generating a plurality of archetypes basedon the user content streams, receiving a selection of a particulararchetype of the plurality of archetypes from a particular user on aparticular computing device 12, determining a particular content streambased on the particular archetype, and delivering the particular contentstream to the particular user via the particular computing device 12.Beneficially, a label is applied to each of the plurality of archetypesbased on content instances within each of the plurality of archetypes,for example by applying a classifier to text within content instanceswithin each of the plurality of archetypes, and the particular user isenabled to select the particular archetype based on the label of thearchetype. The particular computing device 12 is not necessarilyincluded as one of the plurality of computing devices from which usercontent streams are monitored, but can be included as one of theplurality of computing devices from which user content streams aremonitored.

A network-connectable processor-enabled content feed manager 20 enablescontent feeds to be provided to a user of a computing device 12 via acontent feed application 14. The content feeds can be provided in a userinterface 56 via the content feed application 14 based on datatransmitted from a content feed application program interface (“API”) 30of the content feed manager 20. Alternatively, content feeds can beprovided via the user interface 56 based on data transmitted from a webapplication 28 enabled by the content feed manager 20 and accessible viaa web browser 50 executed on the computing device 12. Content feedsbeneficially include links to content hosted by internet applications,websites, or other network-enabled platforms. Content feeds canalternatively include content in its entirety, abridged content, orexcerpted content. Internet applications or websites providing contentcan include for example social media, video hosting, or news platforms,for example Youtube™, Twitter™, and Wall Street Journal™ contentplatforms. Applications providing content (“content applications”) caninclude standalone applications, plugins, add-ons, or extensions toexisting applications, for example web browser plugins. Contentapplications or components thereof can be installed and executed locallyon a computing device 12 or installed and executed on remote computingsystems accessible to the computing device 12 via the communicationsnetwork 8, for example the internet.

A website server or application server 40 (hereinafter “web/app server”)can function to enable local content applications 52 or components of alocal content application 52. Web/app servers 40 can further enableservices including network-based applications, webpages, or otherservices accessible via a web browser 50. A monitoring agent 16 monitorsuser activity on the computing device 12 including a user's use of localand network-based applications and a user's accessing of websites and ofparticular content on local and network-based applications and websites.Records and statistics of such use is used by a modeling engine 22 tobuild behavioral archetypes stored in a model datastore 24 of thecontent feed manager 20 or a local datastore 54 of the computing device12.

A first methodology for providing content feeds includes tweaking knowninternet browser online tracking mechanisms in order to set an internetbrowser into a state which would cause a determined response fromparticular internet applications or websites. Internet applications andwebsites are individually and jointly referred to herein as “platforms”.Eventually, by setting the browser into carefully chosen states adesired user experience can be brought to the user. This procedure isnot ideal because the common purpose of known tracking mechanisms (e.g.,browser fingerprinting, storing of browser's history, and saving ofcookies) is to provide valuable information to a visited website orthird-party, for example to improve a customer's user experience ine-shops, achieve better advertisement targeting, automate localizationof website content, or conduct marketing studies. The purpose oftracking mechanisms is not to significantly influence thepersonalization of platforms. Tweaking of relevant online trackingmechanisms of a browser may result in limited or no impact in elicitinga desired response from a particular platform.

An important observation of the nature of successful contemporaryplatforms (e.g., internet applications and websites) is that theirpersonalization mechanisms rely greatly on the recording of a user'sinteraction with the platform through the particular user's account.This observation is supported by the conclusion set forth aboveregarding the above-described first methodology. A second methodologyprovided involves elaborating on the idea of maintaining a population ofartificially created user accounts initialized into well-defined states,so that their content feed would include desired properties. This secondmethodology is also not ideal. First, different platforms typically havedifferent mechanisms of interaction and personalization. Accordingly, itis largely necessary to reverse engineer mechanisms for interaction andpersonalization separately for each platform of interest. Second,maintaining artificially created user accounts user may be against theterms and conditions of platforms of interest.

Instead of trying to create an internet experience by creating anartificial user with particular traits, a third methodology in the formof a content feed mimicking process is described herein enabling amimicking of the content feeds of internet applications and websites,individually and jointly referred to herein as “platforms”, of interestso that they represent preferences of a chosen group of users. Contentfeeds are enabled that mimic preferences of behavioral archetypes ofinternet users making it possible for a user to experience the internetthrough the eyes of a different chosen group of users.

Referring to FIG. 2A an exemplary pipeline 100 of a content feedmimicking process is shown. While proprietary content platformsincluding Youtube™ and Twitter™ are indicated in FIG. 2A, these are onlyexemplary and may be substituted with any number of different contentplatforms. In order to achieve the goal of mimicking content feeds,beneficially data from a data source is obtained including a pluralityof content streams 102 including a plurality of streams of browsingactivity of internet users 104, 106, 108 who gave consent to beingtracked on internet applications and websites (individually and jointlyreferred to herein as “platforms”) with publicly available contentinstances. One skilled in the art would understand that processesdescribed herein are scalable to any number of users. Content instancesinclude for example hosted user videos 110 (e.g., YouTube™ videos),social networking posts 112 (e.g., Twitter™ Tweets™), and news mediaarticles 114. The data from the data source can be obtained for examplevia a monitoring agent 16 for example in the form of a tracking browserextension installed on a computing device 12 of a user.

After gathering the plurality of content streams 102 of internet users104, 106, 108 on websites or internet applications of interest, whichdata can be stored in a user datastore 26, significant groups ofinternet users 104, 106, 108 are discovered by an archetype discoveryprocess 120 in which archetype “A” 130A, archetype “B” 130B, andarchetype “C” 130C are determined, allowing the feeds of internet users104, 106, 108 to be mimicked. This mimicking is beneficially performedby implementing Latent Dirichlet Allocation (hereinafter “LDA”), apowerful topical modeling algorithm from the field of natural languageprocessing. An LDA is configured to receive documents as inputs and tooutput topics defined as a weighted list of words within the documents.The LDA algorithm is beneficially applied to a stream of browsingactivity, for example by the modeling engine 22 based on a stream ofbrowsing activity stored in the user datastore 26. A single user (e.g.,a first user 104, a second user 106, or a third user 108) is perceivedover a certain period of time (e.g., a day, week, or month) as a“document” under the LDA. A unique video, text instance (e.g., Twitter™Tweet™), article, or other content instance accessed by the user (e.g.,the first user 104, the second user 106, or the third user 108) isbeneficially perceived as a “word” of the “document” under the LDA. Theoutput of the LDA algorithm are behavioral archetypes perceived as“topics” under the LDA, which behavioral archetypes are defined as aweighted list of LDA “words” (e.g., videos, Tweets™, articles).Behavioral archetypes can be stored in a model datastore 24. Every“document” (i.e., every user) is represented as a weighted average of“topics” (i.e., behavioral archetypes). Hereinafter, LDA “topics” arereferred to as significant “behavioral archetypes”, the content feeds ofwhich can be mimicked. Alternatively, other types of algorithms can beused for the discovery of behavioral archetypes. The behavioralarchetypes are labeled based on content represented thereby, for exampleby applying a classifier to text or other data of the LDA “words” (e.g.,videos, Tweets™, articles) defining the behavioral archetypes.

In a feed mimicking process 140, a content feed application 14 isprovided enabling an end user 204 to choose a behavioral archetype, aplurality of behavioral archetypes, or a weighted average of behavioralarchetypes for example based on a corresponding label. A content feedincluding publicly available content instances is created via thecontent feed application 14 beneficially resembling a feed of aparticular internet application by selecting the most relevant elements(e.g., videos, social media posts, or articles) from source data streamsof browsing activities of internet users 104, 106, 108. Contentinstances can include for example hosted user videos 210 (e.g., YouTube™videos), social networking posts 212 (e.g., Twitter™ Tweets™), and newsmedia articles 214. A very useful property of the output of the LDA isthat the weights of every “word” (e.g., every video, Tweet™, or article)are distributed across the “topics” (i.e., behavioral archetypes) sothat the sum of the weights is equal to 1 for each “topic” (i.e.,behavioral archetype). These weights are interpreted as elements of avector embedding of the “word” (e.g., video, Tweet™, or article) in thevector space of the “topics” (i.e., behavioral archetypes), resulting inan archetype vector of a content instance. The behavioral archetypes inthis space are beneficially represented by one-hot vectors, and thecontent feed is created by retrieving the most similar archetype vectorsof content instances to the vector of the chosen behavioral archetype,for example by utilizing the cosine similarity.

Referring to FIG. 2B a process flow 300 of an exemplary application of acontent feed mimicking process in accordance with the exemplary pipeline100 is shown. While proprietary content platforms including Youtube™ andTwitter™ are indicated in FIG. 2B, these are only exemplary and may besubstituted with any number of different content platforms. A contentstream 304 (e.g., a “clickstream”) from the first user 104 includes avideo1 from the Youtube™ platform, video2 from the Youtube™ platform,Tweet1 from the Twitter™ platform, article1 from a particular newsplatform, and article2 from another particular news platformrespectively monitored at a corresponding time1, time2, time3, time4,and time5 as set forth in Table 1. A content stream 306 (e.g., a“clickstream”) from the second user 106 includes the article2 from theother particular news platform, a video3 from the Youtube™ platform, thevideo1 from the Youtube™ platform, an article3 from yet another newsplatform, the Tweet1 from the Twitter™ platform, and a Tweet2 from theTwitter™ platform respectively monitored at time6, time7, time8, time9,time10, and time11 as set forth in Table 1.

TABLE 1 Time URL/Category Content User 1 1 Youtube ™ video1 2 Youtube ™video1 3 Twitter ™ Tweet1 4 News article1 5 News article2 User 2 6 Newsarticle2 7 Youtube ™ video3 8 Youtube ™ video1 9 News article3 10Twitter ™ Tweet1 11 Twitter ™ Tweet2

In an archetype discovery process 320, an LDA algorithm is applied tothe content streams 304, 306 to produce an output respectively includingbehavioral archetype “A” 330A, behavioral archetype “B” 330B, andbehavioral archetype “C” 330C with weighted content instances as setforth in Table 2. The behavioral archetype A 330A includes the video1 atweight 0.6, the Tweet2 at weight 0.2, and the video2 at weight 0.2. Thebehavioral archetype B 330B includes the video2 at weight 0.7, thevideo1 at weight 0.2, and the Tweet2 at weight 0.1. The behavioralarchetype C 330C includes the Tweet2 at weight 0.7, the video1 at weight0.2, and the video2 at weight 0.1. The behavioral archetypes arebeneficially labeled based on content represented by the behavioralarchetypes, for example by applying a classifier to text or other dataof the video1, video2, and Tweet2. Labels can include for instance“conservative”, “liberal”, and “moderate” corresponding to conservative,liberal, or moderate political views.

TABLE 2 Weight URL/Category Content Archetype A 0.6 Youtube ™ video1 0.2Twitter ™ Tweet2 0.2 Youtube ™ video2 Archetype B 0.7 Youtube ™ video20.2 Youtube ™ video1 0.1 Twitter ™ Tweet2 Archetype C 0.7 Twitter ™Tweet2 0.2 Youtube ™ video1 0.1 Youtube ™ video2

The LDA algorithm further produces a first representation 324 of thefirst user 104 including a first weighted average of behavioralarchetypes and a second representation 326 of the second user 106including a second weighted average of behavioral archetypes as shown inTable 3. The first user 104 is weighted as 0.3 (i.e., 30%) behavioralarchetype A 330A, 0.5 (i.e., 50%) behavioral archetype B 330B, and 0.2(i.e., 20%) behavioral archetype C 330C. The second user 106 is weightedas 0.1 (i.e., 10%) behavioral archetype A 330A, 0.1 (i.e., 10%)behavioral archetype B 330B, and 0.8 (i.e., 80%) behavioral archetype C330C.

TABLE 3 Weight Archetype User 1 0.3 Archetype A 0.5 Archetype B 0.2Archetype C User 2 0.1 Archetype A 0.1 Archetype B 0.8 Archetype C

Archetype vectors are generated for content instances including forexample the archetype vectors shown in a Youtube™ video archetype vectorblock 342 and in Table 4. For a video1 archetype vector, (0.6, 0.2,0.2), of the Youtube™ video vector block 342, the weight of video1 inthe behavioral archetype A 330A (0.6) takes a first position in thevideo1 archetype vector, the weight of video1 in the behavioralarchetype B 330B (0.2) takes a second position in the video1 archetypevector, and the weight of video1 in the behavioral archetype C 330C(0.2) takes a third position in the video1 archetype vector. For avideo2 archetype vector, (0.2, 0.7, 0.1), of the Youtube™ video vectorblock 342, the weight of video2 in the behavioral archetype A 330A (0.2)takes a first position in the video2 archetype vector, the weight ofvideo2 in the behavioral archetype B 330B (0.7) takes a second positionin the video2 archetype vector, and the weight of video2 in thebehavioral archetype C 330C (0.1) takes a third position in the video2archetype vector.

TABLE 4 Content Archetype Vector video1 (0.6, 0.2, 0.2) video2 (0.2,0.7, 0.1)

One-hot archetype vectors are generated for each generated behavioralarchetype including the behavioral archetype A 330A, the behavioralarchetype B 330B, and the behavioral archetype C 330C as shown in Table5. For an archetype A vector, a first position is set to one, and secondand third positions are set to zero. For an archetype B vector, a secondposition is set to one, and first and third positions are set to zero.For an archetype C vector, a third position is set to one, and first andsecond positions are set to zero.

TABLE 5 Archetype Archetype Vector Archetype A (1.0, 0.0, 0.0) ArchetypeB (0.0, 1.0, 0.0) Archetype C (0.0, 0.0, 1.0)

In a content feed mimicking process 340 of the process flow 300, an enduser 204 for example chooses via the content feed application 14 thebehavioral archetype B 330B to be mimicked in a content feed. Thebehavioral archetype B 330B corresponds to the archetype B vector (0.0,1.0, 0.0) shown in a chosen archetype block 346. The end user 204further chooses a feed type to be the Youtube™ content platform. A firstsimilarity between the video1 archetype vector (0.6, 0.2, 0.2) and thearchetype B vector (0.0, 1.0, 0.0) is determined, beneficially bydetermining the cosine similarity between the video1 archetype vector(0.6, 0.2, 0.2) and the archetype B vector (0.0, 1.0, 0.0). Further, asecond similarity between the video2 archetype vector (0.2, 0.7, 0.1)and the archetype B vector (0.0, 1.0, 0.0) is determined, beneficiallyby determining the cosine similarity between the video2 archetype vector(0.2, 0.7, 0.1) and the archetype B vector (0.0, 1.0, 0.0). A contentfeed 348 is provided to the end user 204 based on the determined firstsimilarity and the determined second similarity. The content feed 348includes both the video1 and the video2 respectively based on thedetermined first similarity and the determined second similarity, forexample responsive to achieving threshold levels of similarity. Thevideo2 archetype vector (0.2, 0.7, 0.1) is listed first in the contentfeed 348 and can be more prominently or frequently featured in thecontent feed 348 because the video2 archetype vector (0.2, 0.7, 0.1) iscloser to the archetype B vector (0.0, 1.0, 0.0) in cosine distance thanthe video1 archetype vector (0.6, 0.2, 0.2) is close to the archetype Bvector (0.0, 1.0, 0.0) in cosine distance.

In addition to content instances such as videos, social networkingposts, and news articles, behavioral archetypes can be defined based oninternet domains accessed by internet users 104, 106, 108 who gaveconsent to being tracked. A single user (e.g., a first user 104, asecond user 106, or a third user 108) is perceived over a certain periodof time (e.g., a day, week, or month) as a “document” under the LDA. Aunique domain accessed by the user (e.g., the first user 104, the seconduser 106, or the third user 108) is beneficially perceived as a “word”of the “document” under the LDA. The output of the LDA algorithm arebehavioral archetypes perceived as “topics” under the LDA, whichbehavioral archetypes are defined as a weighted list of LDA “words”(i.e., domains). Referring to Table 6, sample domains corresponding tosample behavioral archetypes X and W experimentally generated from usercontent streams of consenting users in a first exemplary geographicregion (the United States) are shown, and sample domains correspondingto sample behavioral archetypes Y and Z experimentally generated fromuser content streams of consenting users in a second exemplarygeographic region (the Czech Republic) are shown.

TABLE 6 Region 1 Region 2 Archetype W Archetype X Archetype Y ArchetypeZ google.com fidelity.com google.com seznam.cz bing.com realtor.comfacebook.com novas.cz facebook.com ikea.com kb.cz meteoradar.czlinkedin.com walmart.com mall.cz auto.cz live.com poshmark.com lidl.czonlyu.cz gmail.com kroger.com sbazar.cz prozeny.cz

Referring to FIGS. 3A-3D, first, second, third, and fourth exemplaryinteractive displays 400, 420, 440, 460 enabled by the content feedapplication 14 allow a user to indicate preferences and receive contentvia the user interface 56 of the computing device 12. Each of theexemplary interactive displays 400, 420, 440, 460 enables selection of acountry code in a first field 402, a behavioral archetype in a secondfield 404, and a content feed in a third field 406.

The first field 402 allows a user to select the country where contentstreams used for establishing the behavioral archetypes were received bycomputing devices 12. Selectable country codes include for example “US”for the United States, “CA” for Canada, or “CZ” for the Czech Republic.Alternatively, other geographic regions where content streams used forestablishing the behavioral archetypes were received by computingdevices 12 can be rendered selectable by a user, for example states,counties, cities, or groupings of countries, states, counties, orcities. The second field 404 allows a user to select a desiredbehavioral archetype including behavioral archetypes labeled as“Jupiter”, “Earth”, “Mercury”, and “Venus”. Alternatively, otherselectable labels for behavioral archetypes can be provided, for example“conservative”, “liberal”, and “moderate” corresponding topolitically-oriented behavioral archetypes. The third field 406 allows auser to select a content feed from selections including “YouTube™”directed at content from the YouTube™ platform, “Twitter™” directed atcontent from the Twitter™ platform, “News” directed at content from oneor more news media platforms, and “Domains” directed at website domains.Alternatively, other platforms or content types can be provided in thethird field 406.

The first exemplary interactive display 400 shows that a user hasselected a “United States” country code via the first field 402, a“Jupiter” behavioral archetype via the second field 404, and a“YouTube™” content feed via the third field 406. In the first exemplaryinteractive display 400, the content feed application 14 delivers aparticular content stream including video content instances 408 from theYouTube™ platform to the user via the user interface 56 of the computingdevice 12, for example by implementing the content feed mimickingprocess of the exemplary pipeline 100 based on content streams ofinternet users 104, 106, 108 located in a geographic area correspondingto the selected country code.

The second exemplary interactive display 420 shows that a user hasselected the “United States” country code via the first field 402, an“Earth” behavioral archetype via the second field 404, and a “Twitter™”content feed via the third field 406. In the second exemplaryinteractive display 420, the content feed application 14 delivers aparticular content stream including Twitter™ multimedia contentinstances (i.e., “Tweets™”) 428 from the Twitter™ platform to the uservia the user interface 56 of the computing device 12, for example byimplementing the content feed mimicking process of the exemplarypipeline 100 based on content streams of internet users 104, 106, 108located in a geographic area corresponding to the selected country code.

The third exemplary interactive display 440 shows that a user hasselected the “United States” country code via the first field 402, a“Mercury” behavioral archetype via the second field 404, and a “News”content feed via the third field 406. In the third exemplary interactivedisplay 440, the content feed application 14 delivers a particularcontent stream including news multimedia content instances 448 from newsplatforms to the user via the user interface 56 of computing device 12,for example by implementing the content feed mimicking process of theexemplary pipeline 100 based on content streams of internet users 104,106, 108 located in a geographic area corresponding to the selectedcountry code.

The fourth exemplary interactive display 460 shows that a user hasselected the “United States” country code via the first field 402, a“Venus” behavioral archetype via the second field 404, and a “Domains”content feed via the third field 406. In the fourth exemplaryinteractive display 460, the content feed application 14 delivers aparticular content stream including content instances 468 at a top leveldomain of a website to the user via the user interface 56 of computingdevice 12, for example by implementing the content feed mimickingprocess of the exemplary pipeline 100 based on content streams ofinternet users 104, 106, 108 located in a geographic area correspondingto the selected country code.

Referring to FIG. 4A, a method 500 of providing a content feed is shown.The method 500 is described with reference to the components of thesystem 10 shown in FIG. 1 , including for example the computing device12, the processor-enabled content feed manager 20, content feedapplication 14, monitoring agent 16, and communications network 8.Alternatively, the method 500 can be performed via other suitablesystems and is not restricted to being implemented by the components ofthe system 10.

In a step 502, a plurality of user content streams of a plurality ofusers on a plurality of computing devices are monitored, the pluralityof user content streams including a plurality of content instancesaccessible via a network. The plurality of user content streamsbeneficially include a plurality of network destinations. The pluralityof content instances can include for example one or more of video data,photographic data, text data, news reports, or social media posts. Aplurality of monitoring agents can be enabled on the plurality ofcomputing devices, and the plurality of user content streams of theplurality of users on the plurality of computing devices can bemonitored via the plurality of monitoring agents. For example, theplurality of user content streams of the plurality of users on theplurality of computing devices can be monitored via a browser extensionexecuted on each of the plurality of computing devices.

A plurality of archetypes are generated based on the plurality of usercontent streams (step 504). The plurality of archetypes beneficiallyinclude a plurality of weighted lists including the plurality of contentinstances. A selection of a particular archetype of the plurality ofarchetypes from a particular user is received on a particular computingdevice (step 506). The particular computing device need not be one ofthe plurality of computing devices, but may be included as one of theplurality of computing devices. A particular content stream isdetermined based on the particular archetype (step 508), and theparticular content stream is delivered to the particular user via theparticular computing device (step 510).

Beneficially, a plurality of labels are applied to the plurality ofarchetypes based on the plurality of user content streams, and theselection of the particular archetype from the particular user isreceived as a selection of a particular label of the plurality oflabels. Beneficially a label is applied to each of the plurality ofarchetypes based on content instances within each of the plurality ofarchetypes, for example by applying a classifier to text within contentinstances within each of the plurality of archetypes. A plurality oflabels of the plurality of archetypes are determined based on theplurality of weighted lists comprising the plurality of contentinstances. Particularly, each of the plurality of labels of theplurality of archetypes are determined based on a corresponding one ofthe plurality of weighted lists. The particular user is enabled toselect the particular archetype based on the label of the archetype.

In an extension to the method 500, a selection of a particular feed typefrom the particular user is received on the particular computing device,and the particular content stream is determined further based on theparticular feed type. The particular feed type can include for example aparticular content platform (e.g., YouTube™ or Twitter™), a particularcontent type (e.g., news), or a particular network destination type(e.g., a top level domain). Further, a plurality of geographic locationsof the plurality of computing devices can be determined, and theplurality of geographic locations can be respectively associated withthe plurality of archetypes. A selection of a particular geographicregion from the particular user can be received on the particularcomputing device, and the particular content stream can be determinedfurther based on the particular geographic region.

In the method 500, the plurality of archetypes are beneficiallygenerated by applying a latent dirichlet allocation (“LDA”) algorithm tothe plurality of user content streams. The generated plurality ofarchetypes can include a plurality of weighted lists including theplurality of content instances. Beneficially, a first vector isgenerated representing the selected particular archetype based on theplurality of archetypes. A platform accessed by the particular user viathe network is detected. Alternatively, a platform is selected by theparticular user, or alternatively, a platform is otherwise identified.One or more particular content instances of the plurality of contentinstances available via the platform are determined, the plurality ofweighted lists including weights of the one or more particular contentinstances in the plurality of archetypes. A second vector is generatedbased on the weights of the one or more particular content instances inthe plurality of archetypes. A similarity of the first vector and thesecond vector is determined for example by determining a cosinesimilarity of the first vector and the second vector, and it isdetermined to include the one or more particular content instances inthe particular content stream based on the determined similarity of thefirst vector and the second vector. Beneficially, the first vectorincludes a first plurality of variables of a quantity equal to a numberof the plurality of archetypes, wherein the first plurality of variablesinclude a certain variable corresponding to the particular archetype andother variables corresponding to other archetypes of the pluralityarchetypes, and wherein the certain variable is equal to one (1) and theother variables are equal to zero (0); and the second vector includes asecond plurality of variables of the quantity equal to the number of theplurality of archetypes, wherein each of the second plurality ofvariables corresponds to a particular weight of the one or moreparticular content instance at a respective one of the plurality ofarchetypes, and wherein the sum of the second plurality of variables isequal to one (1).

Referring to FIG. 4B, a further extension 520 to the method 500 isbeneficially implemented in determining the particular content stream instep 508. In the further extension 520 starting at B and ending at C, aplatform accessed or selected by the particular user via the network isdetected (step 522). One or more particular content instances of theplurality of content instances available via the platform are determined(step 524). The plurality of archetypes include a plurality of weightedlists including the plurality of content instances, the plurality ofweighted lists including weights of the one or more particular contentinstances in the plurality of archetypes. The one or more particularcontent instances are included in the particular content stream based onweights of the one or more particular content instances in the pluralityof archetypes (step 526).

Referring to FIG. 5 , a method 600 of providing a content feed is shown.The method 600 is described with reference to the components of thesystem 10 shown in FIG. 1 , including for example the computing device12, the processor-enabled content feed manager 20, content feedapplication 14, monitoring agent 16, and communications network 8.Alternatively, the method 600 can be performed via other suitablesystems and is not restricted to being implemented by the components ofthe system 10.

The method 600 includes receiving a plurality of content instances froma plurality of computing devices via a network (step 602), andgenerating a plurality of archetypes based on the plurality of contentinstances (step 604). An application is enabled on a particularcomputing device (step 606), and a selection of a particular archetypeof the plurality of archetypes from a particular user is received on theparticular computing device via the application (step 608). A particularcontent instance is determined based on the particular archetype (step610), and the particular content instance is delivered to the particularuser via the particular computing device (step 612). The particularcontent instance is beneficially one of the plurality of contentinstances.

In an extension to the method 600, a plurality of geographic locationsof the plurality of computing devices are determined, the plurality ofgeographic locations are respectively associated with the plurality ofarchetypes, a selection of a particular geographic region from theparticular user is received on the particular computing device via theapplication, and the particular content instance is determined furtherbased on the particular geographic region. In a further extension to themethod 600, a selection of a particular feed type from the particularuser is received on the particular computing device via the application,and the particular content instance is determined further based on theparticular feed type.

The herein described illustrative embodiments provide solutions to theproblem of the lack of objectivity in personalized feeds in contemporaryinternet applications. Contemporary internet applications can becharacterized by the following practical observations. The applicationsare mostly insensitive to tweaking of the browser properties which areknown to be the subject of the tracking mechanisms; major components ofthe personalization in contemporary internet applications come from therecording of the user's interaction with the application via the user'saccount; and personalization mechanisms are specific to each internetapplication, and their reverse engineering is tedious and commonlyagainst terms and conditions of the application. The herein describedillustrative embodiments address changes stemming from theseobservations.

The illustrative embodiments enable mimicking a feed of a chosenapplication (e.g., Twitter™), where the feed includes public contentpreferred by users representing a particular behavioral archetype. Abeneficial component of the described systems and methods is a trackingapplication for example in the form of a browser extension which recordsthe browsing behavior of users in particular internet applications. Theillustrative embodiments provide a user a unique opportunity toexperience the particular internet applications through the eyes of acharacteristic user group.

FIG. 6 illustrates in abstract the function of an exemplary computersystem 1000 on which the systems, methods and processes described hereincan execute. For example, the computing device 12, content feed manager20, and the web/app servers 40 can each be embodied by a particularcomputer system 1000. The computer system 1000 may be provided in theform of a personal computer, laptop, handheld mobile communicationdevice, mainframe, distributed computing system, or other suitableconfiguration. Illustrative subject matter is in some instancesdescribed herein as computer-executable instructions, for example in theform of program modules, which program modules can include programs,routines, objects, data structures, components, or architectureconfigured to perform particular tasks or implement particular abstractdata types. The computer-executable instructions are represented forexample by instructions 1024 executable by the computer system 1000.

The computer system 1000 can operate as a standalone device or can beconnected (e.g., networked) to other machines. In a networkeddeployment, the computer system 1000 may operate in the capacity of aserver or a client machine in server-client network environment, or as apeer machine in a peer-to-peer (or distributed) network environment. Thecomputer system 1000 can also be considered to include a collection ofmachines that individually or jointly execute a set (or multiple sets)of instructions to perform one or more of the methodologies describedherein.

It would be understood by those skilled in the art that other computersystems including but not limited to networkable personal computers,minicomputers, mainframe computers, handheld mobile communicationdevices, multiprocessor systems, microprocessor-based or programmableelectronics, and smart phones could be used to enable the systems,methods and processes described herein. Such computer systems canmoreover be configured as distributed computer environments whereprogram modules are enabled and tasks are performed by processingdevices linked through a communications network, and in which programmodules can be located in both local and remote memory storage devices.

The exemplary computer system 1000 includes a processor 1002, forexample a central processing unit (CPU) or a graphics processing unit(GPU), a main memory 1004, and a static memory 1006 in communication viaa bus 1008. A visual display 1010 for example a liquid crystal display(LCD), light emitting diode (LED) display or a cathode ray tube (CRT) isprovided for displaying data to a user of the computer system 1000. Thevisual display 1010 can be enabled to receive data input from a user forexample via a resistive or capacitive touch screen. A character inputapparatus 1012 can be provided for example in the form of a physicalkeyboard, or alternatively, a program module which enables auser-interactive simulated keyboard on the visual display 1010 andactuatable for example using a resistive or capacitive touchscreen. Anaudio input apparatus 1013, for example a microphone, enables audiblelanguage input which can be converted to textual input by the processor1002 via the instructions 1024. A pointing/selecting apparatus 1014 canbe provided, for example in the form of a computer mouse or enabled viaa resistive or capacitive touch screen in the visual display 1010. Adata drive 1016, a signal generator 1018 such as an audio speaker, and anetwork interface 1020 can also be provided. A location determiningsystem 1017 is also provided which can include for example a GPSreceiver and supporting hardware.

The instructions 1024 and data structures embodying or used by theherein-described systems, methods, and processes, for example softwareinstructions, are stored on a computer-readable medium 1022 and areaccessible via the data drive 1016. Further, the instructions 1024 cancompletely or partially reside for a particular time period in the mainmemory 1004 or within the processor 1002 when the instructions 1024 areexecuted. The main memory 1004 and the processor 1002 are also as suchconsidered computer-readable media.

While the computer-readable medium 1022 is shown as a single medium, thecomputer-readable medium 1022 can be considered to include a singlemedium or multiple media, for example in a centralized or distributeddatabase, or associated caches and servers, that store the instructions1024. The computer-readable medium 1022 can be considered to include anytangible medium that can store, encode, or carry instructions forexecution by a machine and that cause the machine to perform any one ormore of the methodologies described herein, or that can store, encode,or carry data structures used by or associated with such instructions.Further, the term “computer-readable storage medium” can be consideredto include, but is not limited to, solid-state memories and optical andmagnetic media that can store information in a non-transitory manner.Computer-readable media can for example include non-volatile memory suchas semiconductor memory devices (e.g., magnetic disks such as internalhard disks and removable disks, magneto-optical disks, CD-ROM andDVD-ROM disks, Erasable Programmable Read-Only Memory (EPROM),Electrically Erasable Programmable Read-Only Memory (EEPROM), and flashmemory devices).

The instructions 1024 can be transmitted or received over acommunications network, for example the communications network 8, usinga signal transmission medium via the network interface 1020 operatingunder one or more known transfer protocols, for example FTP, HTTP, orHTTPs. Examples of communication networks include a local area network(LAN), a wide area network (WAN), the internet, mobile telephonenetworks, Plain Old Telephone (POTS) networks, and wireless datanetworks, for example Wi-Fi™ and 3G/4G/5G cellular networks. The term“computer-readable signal medium” can be considered to include anytransitory intangible medium that is capable of storing, encoding, orcarrying instructions for execution by a machine, and includes digitalor analog communications signals or other intangible medium tofacilitate communication of such instructions.

Although features and elements are described above in particularcombinations, one of ordinary skill in the art will appreciate that eachfeature or element can be used alone or in any combination with theother features and elements. Methods described herein may be implementedin a computer program, software, or firmware incorporated in acomputer-readable medium for execution by a computer or processor.

While embodiments have been described in detail above, these embodimentsare non-limiting and should be considered as merely exemplary.Modifications and extensions may be developed, and all suchmodifications are deemed to be within the scope defined by the appendedclaims.

What is claimed is:
 1. A method of providing a content feed comprising:monitoring a plurality of user content streams of a plurality of userson a plurality of computing devices, the plurality of user contentstreams comprising a plurality of content instances accessible via anetwork; generating a plurality of archetypes based on the plurality ofuser content streams, the plurality of archetypes comprising a pluralityof weighted lists comprising the plurality of content instances;receiving a selection of a particular archetype of the plurality ofarchetypes from a particular user on a particular computing device;detecting a platform selected by the particular user via the network;determining at least one particular content instance of the plurality ofcontent instances available via the platform, the plurality of weightedlists comprising weights of the at least one particular content instancein the plurality of archetypes; determining a particular content streambased on the particular archetype, the at least one particular contentinstance included in the particular content stream based on the weightsof the at least one particular content instance in the plurality ofarchetypes; and delivering the particular content stream to theparticular user via the particular computing device.
 2. The method ofclaim 1, further comprising applying a latent dirichlet allocation(“LDA”) algorithm to the plurality of user content streams to generatethe plurality of archetypes.
 3. The method of claim 1, furthercomprising: determining a plurality of labels of the plurality ofarchetypes based on the plurality of weighted lists comprising theplurality of content instances; and receiving the selection of theparticular archetype from the particular user as a selection of aparticular label of the plurality of labels.
 4. The method of claim 1,the plurality of content instances comprising at least one of videodata, photographic data, or text data.
 5. The method of claim 1, theplurality of content instances comprising at least one of news reportsor social media posts.
 6. The method of claim 1, further comprisingmonitoring the plurality of user content streams of the plurality ofusers on the plurality of computing devices via a browser extensionexecuted on each of the plurality of computing devices.
 7. The method ofclaim 1, further comprising: enabling a plurality of monitoring agentson the plurality of computing devices; and monitoring the plurality ofuser content streams of the plurality of users on the plurality ofcomputing devices via the plurality of monitoring agents.
 8. The methodof claim 1, wherein the plurality of user content streams comprise aplurality of network destinations.
 9. A method of providing a contentfeed comprising: monitoring a plurality of user content streams of aplurality of users on a plurality of computing devices, the plurality ofuser content streams comprising a plurality of content instancesaccessible via a network; generating a plurality of archetypes based onthe plurality of user content streams, the plurality of archetypescomprising a plurality of weighted lists comprising the plurality ofcontent instances; receiving a selection of a particular archetype ofthe plurality of archetypes from a particular user on a particularcomputing device; determining a particular content stream based on theparticular archetype, at least one particular content instance of theplurality of content instances included in the particular content streambased on weights of the at least one particular content instance in theplurality of archetypes; and delivering the particular content stream tothe particular user via the particular computing device.
 10. The methodof claim 9, further comprising: receiving a selection of a particularfeed type from the particular user on the particular computing device;and determining the particular content stream further based on theparticular feed type.
 11. The method of claim 10, wherein the particularfeed type comprises a particular content platform.
 12. The method ofclaim 9, further comprising: determining a plurality of geographiclocations of the plurality of computing devices; and associating theplurality of geographic locations respectively with the plurality ofarchetypes.
 13. The method of claim 12, further comprising: receiving aselection of a particular geographic region from the particular user onthe particular computing device; and determining the particular contentstream further based on the particular geographic region.
 14. The methodof claim 9, further comprising: applying a plurality of labels to theplurality of archetypes based on the plurality of user content streams;and receiving the selection of the particular archetype from theparticular user as a selection of a particular label of the plurality oflabels.
 15. A method of providing a content feed comprising: monitoringa plurality of user content streams of a plurality of users on aplurality of computing devices, the plurality of user content streamscomprising a plurality of content instances accessible via a network;generating a plurality of archetypes based on the plurality of usercontent streams, the plurality of archetypes comprising a plurality ofweighted lists comprising the plurality of content instances; receivinga selection of a particular archetype of the plurality of archetypesfrom a particular user on a particular computing device; detecting aplatform accessed by the particular user via the network; determining atleast one particular content instance of the plurality of contentinstances available via the platform, the plurality of weighted listscomprising weights of the at least one particular content instance inthe plurality of archetypes; determining a particular content streambased on the particular archetype, the at least one particular contentinstance included in the particular content stream based on the weightsof the at least one particular content instance in the plurality ofarchetypes; and delivering the particular content stream to theparticular user via the particular computing device.
 16. A methodcomprising: receiving a plurality of content instances from a pluralityof computing devices via a network; generating a plurality of archetypesbased on the plurality of content instances, the plurality of archetypescomprising a plurality of weighted lists comprising the plurality ofcontent instances; enabling an application on a particular computingdevice; receiving a selection of a particular archetype of the pluralityof archetypes from a particular user on the particular computing devicevia the application; receiving a selection of a particular feed typefrom the particular user on the particular computing device via theapplication; determining a particular content instance based on theparticular archetype, based on weights of the particular contentinstance in the plurality of archetypes, and based on the particularfeed type; and delivering the particular content instance to theparticular user via the particular computing device.
 17. The method ofclaim 16, further comprising: determining a plurality of geographiclocations of the plurality of computing devices; associating theplurality of geographic locations respectively with the plurality ofarchetypes; receiving a selection of a particular geographic region fromthe particular user on the particular computing device via theapplication; and determining the particular content instance furtherbased on the particular geographic region.
 18. A system for providingcontent feeds comprising: a plurality of computing devices eachcomprising at least a first hardware processor and at least a firstnon-transitory computer-readable storage medium coupled to the at leastthe first hardware processor and storing first programming instructionsfor execution by the at least the first hardware processor, wherein thefirst programming instructions, when executed, cause the plurality ofcomputing devices to perform first operations comprising: monitoring aplurality of user content streams, the plurality of user content streamscomprising a plurality of content instances accessible via a network;and a server comprising at least a second hardware processor and atleast a second non-transitory computer-readable storage medium coupledto the at least the second hardware processor and storing secondprogramming instructions for execution by the at least the secondhardware processor, wherein the second programming instructions, whenexecuted, cause the server to perform second operations comprising:receiving the plurality of user content streams from the plurality ofcomputing devices; and generating a plurality of archetypes based on theplurality of user content streams, the plurality of archetypescomprising a plurality of weighted lists comprising the plurality ofcontent instances; and a particular computing device comprising at leasta third hardware processor and at least a third non-transitorycomputer-readable storage medium coupled to the at least the thirdhardware processor and storing third programming instructions forexecution by the at least the third hardware processor, wherein thethird programming instructions, when executed, cause the particularcomputing device to perform third operations comprising: receiving theplurality of archetypes from the server; receiving a selection of aparticular archetype of the plurality of archetypes from a particularuser; determining a particular content stream based on the particulararchetype, at least one particular content instance of the plurality ofcontent instances included in the particular content stream based onweights of the at least one particular content instance in the pluralityof archetypes; and delivering the particular content stream to theparticular user.